The Cocinetas Basin of Colombia provides a valuable window into the geological and paleontological history of northern South America during the Neogene. Two major findings provide new insights into the Neogene history of this Cocinetas Basin: (1) a formal re-description of the Jimol and Castilletes formations, including a revised contact; and (2) chronostratigraphy presented here provides the necessary background information to explore the complete evolutionary and biogeographic significance of the excellent fossil record of the Cocinetas Basin.
The Urumaco stratigraphic sequence, western Venezuela, preserves a variety of paleoenvironments that include terrestrial, riverine, lacustrine and marine facies. A wide range of fossil vertebrates associated with these facies supports the hypothesis of an estuary in that geographic area connected with a hydrographic system that flowed from western Amazonia up to the Proto-Caribbean Sea during the Miocene. Here the elasmobranch assemblages of the middle Miocene to middle Pliocene section of the Urumaco sequence (Socorro, Urumaco and Codore formations) are described. Based on new findings, we document at least 21 taxa of the Lamniformes, Carcharhiniformes, Myliobatiformes and Rajiformes, and describe a new carcharhiniform species (†Carcharhinus caquetius sp. nov.). Moreover, the Urumaco Formation has a high number of well-preserved fossil Pristis rostra, for which we provide a detailed taxonomic revision, and referral in the context of the global Miocene record of Pristis as well as extant species. Using the habitat preference of the living representatives, we hypothesize that the fossil chondrichthyan assemblages from the Urumaco sequence are evidence for marine shallow waters and estuarine habitats.
Brazilian shellmounds are archaeological sites with a high concentration of
marine faunal remains. There are more than 2000 sites along the coast of Brazil
that range in age from 8,720 to 985 cal BP. Here, we studied the
ichthyoarchaeological remains (i.e., cranial/postcranial bones, otoliths, and
teeth, among others) at 13 shellmounds on the southern coast of the state of Rio
de Janeiro, which are located in coastal landscapes, including a sandy plain
with coastal lagoons, rocky islands, islets and rocky bays. We identified
patterns of similarity between shellmounds based on fish diversity, the ages of
the assemblages, littoral geomorphology and prehistoric fisheries. Our new
radiocarbon dating, based on otolith samples, was used for fishery
characterization over time. A taxonomical study of the ichthyoarchaeological
remains includes a diversity of 97 marine species, representing 37% of all
modern species (i.e., 265 spp.) that have been documented along the coast of Rio
de Janeiro state. This high fish diversity recovered from the shellmounds is
clear evidence of well-developed prehistoric fishery activity that targeted
sharks, rays and finfishes in a productive area influenced by coastal marine
upwelling. The presence of adult and neonate shark, especially oceanic species,
is here interpreted as evidence of prehistoric fisheries capacity for
exploitation and possibly overexploitation in nursery areas. Various tools and
strategies were used to capture finfish in seasonal fisheries, over rocky reef
bottoms and in sandy littoral environments. Massive catches of whitemouth
croaker, main target dermersal species of South Atlantic coast, show evidence of
a reduction in body size of approximately 28% compared with modern fisheries.
Fishery activity involving vulnerable species, especially in nursery areas,
could mark the beginning of fish depletion along the southeastern Brazilian
coast and the collapse of natural fish populations.
Despite being among the largest turtles that ever lived, the biology and systematics of Stupendemys geographicus remain largely unknown because of scant, fragmentary finds. We describe exceptional specimens and new localities of S. geographicus from the Miocene of Venezuela and Colombia. We document the largest shell reported for any extant or extinct turtle, with a carapace length of 2.40 m and estimated mass of 1.145 kg, almost 100 times the size of its closest living relative, the Amazon river turtle Peltocephalus dumerilianus, and twice that of the largest extant turtle, the marine leatherback Dermochelys coriacea. The new specimens greatly increase knowledge of the biology and evolution of this iconic species. Our findings suggest the existence of a single giant turtle species across the northern Neotropics, but with two shell morphotypes, suggestive of sexual dimorphism. Bite marks and punctured bones indicate interactions with large caimans that also inhabited the northern Neotropics.
The Pliocene–Pleistocene transition in the Neotropics is poorly understood despite the major climatic changes that occurred at the onset of the Quaternary. The San Gregorio Formation, the younger unit of the Urumaco Sequence, preserves a fauna that documents this critical transition. We report stingrays, freshwater bony fishes, amphibians, crocodiles, lizards, snakes, aquatic and terrestrial turtles, and mammals. A total of 49 taxa are reported from the Vergel Member (late Pliocene) and nine taxa from the Cocuiza Member (Early Pleistocene), with 28 and 18 taxa reported for the first time in the Urumaco sequence and Venezuela, respectively. Our findings include the first fossil record of the freshwater fishes Megaleporinus, Schizodon, Amblydoras, Scorpiodoras, and the pipesnake Anilius scytale, all from Pliocene strata. The late Pliocene and Early Pleistocene ages proposed here for the Vergel and Cocuiza members, respectively, are supported by their stratigraphic position, palynology, nannoplankton, and 86Sr/88Sr dating. Mammals from the Vergel Member are associated with the first major pulse of the Great American Biotic Interchange. In contrast to the dry conditions prevailing today, the San Gregorio Formation documents mixed open grassland/forest areas surrounding permanent freshwater systems, following the isolation of the northern South American basin from western Amazonia. These findings support the hypothesis that range contraction of many taxa to their current distribution in northern South America occurred rapidly during at least the last 1.5 million years.
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